SA5.0~SA220CA GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE SUPPRESSOR VOLTAGE 5.0 to 220 Volts POWER 500 Watts DO-15 Unit: inch(mm) FEATURES • Plastic package has Underwriters Laboratory Flammability Classification 94V-O 1.0(25.4)MIN. .034(.86) • Glass passivated chip junction in DO-15 package • 500W surge capability at 1ms • Excellent clamping capability .028(.71) • Low zener impedance .300(7.6) • Typical IR less than 1µA above 10V • High temperature soldering guaranteed: 260°C/10 seconds/.375" ,(9.5mm) lead length/5lbs., (2.3kg) tension .230(5.8) • Fast response time: typically less than 1.0 ps from 0 volts to BV min • In compliance with EU RoHS 2002/95/EC directives .140(3.6) 1.0(25.4)MIN. .104(2.6) MECHANICAL DATA • Case: JEDEC DO-15 molded plastic • Terminals: Axial leads, solderable per MIL-STD-750, Method 2026 • Polarity: Color band denoted cathode except Bipolar • Mounting Position: Any • Weight: 0.015 ounce, 0.4 gram DEVICES FOR BIPOLAR APPLICAIONS For Bidirectional use C or CA Suffix for types Electrical characteristics apply in both directions. MAXIMUM RATINGS AND CHARACTERISTICS Rating at 25°Cambient temperature unless otherwise specified. Resistive or inductive load, 60Hz. For Capacitive load derate current by 20%. RATING SYMBOL VALUE UNITS Peak Pulse Power Dissipation at TA=25°C, TP=1ms(Note 1, Fig.1) PPPM 500 Watts Peak Pulse Current of on 10/1000µs waveform (Note 1,Fig.3) I PPM SEE TABLE 1 Amps Steady State Power Dissipation at TL=75°CLead Lengths .375",(9.5mm) (Note 2) PM (AV) 1.0 Watts IFSM 70 Amps TJ , TSTG -65 to +175 °C Peak Forward Surge Current, 8.3ms Single Half Sine-Wave Superimposed on Rated Load(JECED Method) (Note 3) Operating and Storage Temperature Range NOTES: 1.Non-repetitive current pulse, per Fig. 3 and derated above TA=25°Cper Fig. 2. 2.Mounted on Copper Leaf area of 1.57in2(40mm2). 3.8.3ms single half sine-wave, duty cycle= 4 pulses per minutes maximum. LEGAL STATEMENT Copyright PanJit International, Inc 2007 The information presented in this document is believed to be accurate and reliable. The specifications and information herein are subject to change without notice. Pan Jit makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose. Pan Jit products are not authorized for use in life support devices or systems. Pan Jit does not convey any license under its patent rights or rights of others. STAD-MAY.25.2007 PAGE . 1 SA5.0~SA220CA R everse S ta n d -o ff Vo lt a g e B reakd o w n Vo lt a g e Test C urrent R everse Leakage Max. C lamp Voltage 10/1000µ s Peak Pulse C urrent 10/1000 µ s VC @ IPP IPP Part N umber Marking C ode V R WM UNI BI V V BR @ IT IR @ VRWM Min . Ma x . IT U N I- B I- V V mA uA uA V A UNI BI 500W Transient Voltage Suppressor SA5.0 SA5.0C 5 6.4 7.55 10 600 1200 9.6 52.3 SA5.0 SA5.0C SA5.0A SA5.0C A 5 6.4 7.25 10 600 1200 9.2 54.3 SA5.0A SA5.0C A SA6.0 SA6.0C 6 6.67 8.45 10 600 1200 11.4 43.9 SA6.0 SA6.0C SA6.0A SA6.0C A 6 6.67 7.67 10 600 1200 10.3 48.5 SA6.0A SA6.0C A SA6.5 SA6.5C 6.5 7.22 9.14 10 400 800 12.3 40.7 SA6.5 SA6.5C SA6.5A SA6.5C A 6.5 7.22 8.3 10 400 800 11.2 44.7 SA6.5A SA6.5C A SA7.0 SA7.0C 7 7.78 9.86 10 150 300 13.3 37.8 SA7.0 SA7.0C SA7.0A SA7.0C A 7 7.78 8.95 10 150 300 12 41.7 SA7.0A SA7.0C A SA7.5 SA7.5C 7.5 8.33 10.67 1 50 100 14.3 35 SA7.5A SA7.5C A 7.5 8.33 9.58 1 50 100 12.9 38.8 SA7.5 SA7.5C SA7.5A SA7.5C A SA8.0 SA8.0C 8 8.89 11.3 1 25 50 15 33.3 SA8.0 SA8.0C SA8.0A SA8.0C A 8 8.89 10.23 1 25 50 13.6 36.7 SA8.0A SA8.0C A SA8.5 SA8.5C 8.5 9.44 11.92 1 10 20 15.9 31.4 SA8.5 SA8.5C SA8.5A SA8.5C A 8.5 9.44 10.82 1 10 20 14.4 34.7 SA8.5A SA8.5C A SA9.0 SA9.0C 9 10 12.6 1 5 5 16.9 29.5 SA9.0 SA9.0C SA9.0A SA9.0C A 9 10 11.5 1 5 5 15.4 32.5 SA9.0A SA9.0C A S A 10 S A 10C 10 11.1 14.1 1 3 3 18.8 26.6 S A 10 S A 10C S A 10A S A 10C A 10 11.1 12.8 1 3 3 17 29.4 S A 10A S A 10C A SA11 SA11C 11 12.2 15.4 1 3 3 20.1 24.9 SA11 SA11C SA11A SA11C A 11 12.2 14 1 3 3 18.2 27.4 SA11A SA11C A S A 12 S A 12C 12 13.3 16.9 1 3 3 22 22.7 S A 12 S A 12C S A 12A S A 12C A 12 13.3 15.3 1 3 3 19.9 25.1 S A 12A S A 12C A S A 13 S A 13C 13 14.4 18.2 1 3 3 23.8 21 S A 13A S A 13C A 13 14.4 16.5 1 3 3 21.5 23.2 S A 14 S A 14C 14 15.6 19.8 1 3 3 25.8 19.4 S A 14 S A 14C S A 14A S A 14C A 14 15.6 17.9 1 3 3 23.2 21.5 S A 14A S A 14C A S A 15 S A 15C 15 16.7 21.1 1 3 3 26.9 18.8 S A 15 S A 15C S A 15A S A 15C A 15 16.7 19.2 1 3 3 24.4 20.6 S A 15A S A 15C A S A 16 S A 16C 16 17.8 22.6 1 3 3 28.8 17.6 S A 16 S A 16C S A 16A S A 16C A 16 17.8 20.5 1 3 3 26 19.2 S A 16A S A 16C A S A 17 S A 17C 17 18.9 23.9 1 3 3 30.5 16.4 S A 17 S A 17C S A 17A S A 17C A 17 18.9 21.7 1 3 3 27.6 16.1 S A 17A S A 17C A S A 18 S A 18C 18 20 25.3 1 3 3 32.2 15.5 S A 18 S A 18C S A 18A S A 18C A 18 20 23.3 1 3 3 29.2 17.2 S A 18A S A 18C A S A 20 S A 20C 20 22.2 28.1 1 3 3 35.8 13.9 S A 20 S A 20C S A 20A S A 20C A 20 22.2 25.5 1 3 3 32.4 15.4 S A 20A S A 20C A S A 22 S A 22C 22 24.4 30.9 1 3 3 39.4 12.7 S A 22 S A 22C S A 22A S A 22C A 22 24.4 28 1 3 3 35.5 14.1 S A 22A S A 22C A S A 24 S A 24C 24 26.7 33.8 1 3 3 43 11.6 S A 24 S A 24C S A 24A S A 24C A 24 26.7 30.7 1 3 3 38.9 12.8 S A 24A S A 24C A S A 26 S A 26C 26 28.9 36.6 1 3 3 46.6 10.7 S A 26 S A 26C S A 26A S A 26C A 26 28.9 33.2 1 3 3 42.1 11.9 S A 26A S A 26C A S A 28 S A 28C 28 31.1 39.4 1 3 3 50 9.9 S A 28 S A 28C S A 28A S A 28C A 28 31.1 35.8 1 3 3 45.4 11 S A 28A S A 28C A S A 30 S A 30C 30 33.3 42.2 1 3 3 53.5 9.3 S A 30A S A 30C A 30 33.3 38.3 1 3 3 48.4 10.3 S A 33 S A 33C 33 36.7 46.5 1 3 3 59 5.8 S A 33 S A 33C S A 33A S A 33C A 33 36.7 42.2 1 3 3 53.3 9.4 S A 33A S A 33C A S A 36 S A 36C 36 40 50.7 1 3 3 64.3 7.8 S A 36 S A 36C S A 36A S A 36C A 36 40 46 1 3 3 58.1 8.6 S A 36A S A 36C A S A 40 S A 40C 40 44.4 56.3 1 3 3 71.4 7 S A 40A S A 40C A 40 44.4 51.1 1 3 3 64.5 7.8 STAD-MAY.25.2007 S A 13 S A 13C S A 13A S A 13C A S A 30 S A 30C S A 30A S A 30C A S A 40 S A 40C S A 40A S A 40C A PAGE . 2 SA5.0~SA220CA R everse S ta n d -o ff Vo lt a g e B reakd o w n Vo lt a g e Test C urrent R everse Leakage Max. C lamp Voltage 10/1000µ s Peak Pulse C urrent 10/1000 µ s VC @ IPP IPP Part N umber Marking C ode V R WM UNI BI V V BR @ IT IR @ VRWM Min . Ma x . IT U N I- B I- V V mA uA uA V A UNI BI 500W Transient Voltage Suppressor S A 43 S A 43C 43 47.8 60.5 1 3 3 76.7 6.5 S A 43 S A 43A S A 43C A 43 47.8 54.9 1 3 3 69.4 7.2 S A 43A S A 43C S A 43C A S A 45 S A 45C 45 50 63.3 1 3 3 80.3 6.2 S A 45 S A 45C S A 45A S A 45C A 45 50 57.5 1 3 3 72.7 6.9 S A 45A S A 45C A S A 48 S A 48C 48 53.3 67.5 1 3 3 85.5 5.8 S A 48 S A 48C S A 48A S A 48C A 48 53.3 61.3 1 3 3 77.4 6.5 S A 48A S A 48C A S A 51 S A 51C 51 56.7 71.8 1 3 3 91.1 5.5 S A 51 S A 51C S A 51A S A 51C A 51 56.7 65.2 1 3 3 82.4 6.1 S A 51A S A 51C A S A 54 S A 54C 54 60 76 1 3 3 96.3 5.2 S A 54 S A 54C S A 54A S A 54C A 54 60.0 69 1 3 3 87.1 5.7 S A 54A S A 54C A S A 58 S A 58C 58 64.4 81.6 1 3 3 103 4.9 S A 58 S A 58C S A 58A S A 58C A 58 64.4 74.1 1 3 3 93.6 5.3 S A 58A S A 58C A S A 60 S A 60C 60 66.7 84.5 1 3 3 107 4.7 S A 60 S A 60C S A 60A S A 60C A 60 66.7 76.7 1 3 3 96.8 5.2 S A 60A S A 60C A S A 64 S A 64C 64 71.1 90.1 1 3 3 114 4.4 S A 64 S A 64C S A 64A S A 64C A 64 71.1 81.8 1 3 3 103 4.9 S A 64A S A 64C A S A 70 S A 70C 70 77.8 98.6 1 3 3 125 4 S A 70 S A 70C S A 70A S A 70C A 70 77.8 89.5 1 3 3 113 4.4 S A 70A S A 70C A S A 75 S A 75C 75 83.3 105.7 1 3 3 134 3.7 S A 75 S A 75C S A 75A S A 75C A 75 83.3 95.8 1 3 3 121 4.1 S A 75A S A 75C A S A 78 S A 78C 78 86.7 109.8 1 3 3 139 3.6 S A 78 S A 78C S A 78A S A 78C A 78 86.7 99.7 1 3 3 126 4 S A 78A S A 78C A S A 85 S A 85C 85 94.4 119.2 1 3 3 151 3.3 S A 85 S A 85C S A 85A S A 85C A 85 94.4 108.2 1 3 3 137 3.6 S A 85A S A 85C A S A 90 S A 90C 90 100 126.5 1 3 3 160 3.1 S A 90 S A 90C S A 90A S A 90C A 90 100 115.5 1 3 3 146 3.4 S A 90A S A 90C A S A 100 S A 100C 100 111 141 1 3 3 179 2.8 S A 100 S A 100C S A 100A S A 100C A 100 111 128 1 3 3 162 3.1 S A 100A S A 100C A SA110 SA110C 110 122 154.5 1 3 3 196 2.6 SA110 SA110C SA110A SA110C A 110 122 140.5 1 3 3 177 2.8 SA110A SA110C A S A 120 S A 120C 120 133 169 1 3 3 214 2.3 S A 120 S A 120C S A 120A S A 120C A 120 133 153 1 3 3 193 2 S A 130 S A 130C 130 144 182.5 1 3 3 231 2.2 S A 130A S A 130C A 130 144 165.5 1 3 3 209 2.4 S A 130A S A 130C A S A 150 S A 150C 150 167 211.5 1 3 3 268 1.9 S A 150 S A 150C S A 150A S A 150C A 150 167 192.5 1 3 3 243 2.1 S A 150A S A 150C A S A 160 S A 160C 160 178 226 1 3 3 287 1.7 S A 160 S A 160C S A 160A S A 160C A 160 178 205 1 3 3 259 1.9 S A 160A S A 160C A S A 170 S A 170C 170 189 239.5 1 3 3 304 1.6 S A 170 S A 170C S A 170A S A 170C A 170 189 217.5 1 3 3 275 1.8 S A 170A S A 170C A S A 180 S A 180C 180 198 253.8 1 3 3 322 1.6 S A 180 S A 180C S A 120A S A 120C A S A 130 S A 130C S A 180A S A 180C A 180 198 230.4 1 3 3 292 1.7 S A 180A S A 180C A S A 190 S A 190C 190 209 267.9 1 3 3 340 1.5 S A 190 S A 190C S A 190A S A 190C A 190 209 243.2 1 3 3 308 1.6 S A 190A S A 190C A S A 200 S A 200C 200 220 282 1 3 3 358 1.4 S A 200 S A 200C S A 200A S A 200C A 200 220 256 1 3 3 324 1.5 S A 200A S A 200C A S A 210 S A 210C 210 231 296.1 1 3 3 376 1.3 S A 210 S A 210C S A 210A S A 210C A 210 231 268.8 1 3 3 340 1.5 S A 210A S A 210C A S A 220 S A 220C 220 242 310.2 1 3 3 394 1.3 S A 220 S A 220C S A 220A S A 220C A 220 242 281.6 1 3 3 356 1.4 S A 220A S A 220C A STAD-MAY.25.2007 PAGE . 3 P PPM , PEAK PULSE POWER, kW 100 PEAK PULSE POWER (P PP ) OR CURRENT(I PP ) DERATING IN PERCENTAGE% SA5.0~SA220CA 100 Non-Repetitve Pulse Wavefom Shown in Flgure3 TA=25 C 10 1.0 0.1 0.1US 10US 1.0US 100US td ,PULSE 1.0ms 10ms 75 50 25 0 0 25 WIDTH, SEC 50 75 100 125 150 175 200 TA , AMBIENT TEMPERATUER, C FIGURE2-PULSE DERATING CURVE FIGURE 1-PEAK PULSE POWER RATING VERSUS PULSE TIME CURVE 6,000 150 4,000 TA=25 C Pulse Width (td) is Defined as the Point Where the Peak Current Decays to 50% of Ipp Peak Value Ippm Tj=25 C f=1.0MHZ Vsig=50mVp-p 2,000 Measured at Zero Bias 100 CJ,CAPACITANCE,pF I PPM , PEAK PULSE CURRENT-% tf=10u sec Half Value-Ipp 2 10/1000u sec Waveform as Defined bye R.E.A. 50 e-kt 0 1.0 2.0 4.0 3.0 400 Measured at Stand- Off Voltahe(V MW ) 200 100 80 60 td 0 1,000 800 600 t, TIME,ms 40 FIGURE 3-PULSE WAVEFORM 1.6 10 1.0 1.4 2.0 10 20 100 200 V( BR ), BREAKDOWN VOLTAGE, VOLTS 1.2 FIG.4-TYPICAL JUNCTION CAPACITANCE UNIDIRECTIONAL 1.0 0.8 =375"(9.5mm) 0.6 0.4 0.2 40mm +40mm +1mm Cu (1.58" +1.58" +0.40") 0 0 25 50 75 100 125 150 175 T L , LEAD TEMPERATURE, C FIG.5-STEADY STATE POWER DERATING CURVE 200 I FSM , PEAK FORWARD SURGE CURRENT AMPERES Pm(AV)STEADY STATE POWER DISSIPATION, WATTS 20 200 Tj=Tj max 8.3ms SINGLE HALF since-WAVE JEDEC METHOD 100 70 50 10 1 5 10 50 100 NUMBER OF CYCLES AT 60 Hz FIG.6-MAXIMUM NON-REPETITEVE PEAK FORWARD SURGE CURRENT UNIDIRECTIONAL PLEASE REFER THE TVS APPLICATION NOTE IN PANJIT WEBSITE http://www.panjit.com/protection-transient-voltage-suppressors.html STAD-MAY.25.2007 PAGE . 4